void tachyon_video::on_process() { char buf[8192]; flt runtime; scenedef *scene = (scenedef *) global_scene; updating_mode = scene->displaymode == RT_DISPLAY_ENABLED; recycling = false; pausing = false; do { updating = updating_mode; timer start_timer = gettimer(); rt_renderscene(global_scene); timer end_timer = gettimer(); runtime = timertime(start_timer, end_timer); sprintf(buf, "%s: %.3f seconds", global_window_title, runtime); rt_ui_message(MSG_0, buf); title = buf; show_title(); // show time spent for rendering if(!updating) { updating = true; drawing_memory dm = get_drawing_memory(); drawing_area drawing(0, 0, dm.sizex, dm.sizey);// invalidate whole screen } rt_finalize(); title = global_window_title; show_title(); // reset title to default } while(recycling && running); }
void on_process() { char buf[128]; flt runtime; timerstart(); rt_renderscene(global_scene); timerstop(); runtime=timertime(); sprintf(buf, "\nCPU Time: %.3f seconds.", runtime); rt_ui_message(MSG_0, buf); buf[0] = ' '; strcat(global_window_title, buf); title = global_window_title; updating = true; show_title(); rt_finalize(); }
int ray(int argc, char **argv) { #else int main(int argc, char **argv) { #endif SceneHandle scene; unsigned int rc; argoptions opt; char * filename; int node, fileindex; rt_timerhandle parsetimer; size_t len; node = rt_initialize(&argc, &argv); rt_set_ui_message(my_ui_message); rt_set_ui_progress(my_ui_progress); if (node == 0) { printf("Tachyon Parallel/Multiprocessor Ray Tracer Version %s \n", TACHYON_VERSION_STRING); printf("Copyright 1994-2010, John E. Stone <*****@*****.**> \n"); printf("------------------------------------------------------------ \n"); } if ((rc = getargs(argc, argv, &opt, node)) != 0) { rt_finalize(); exit(rc); } if (opt.numfiles > 1) { printf("Rendering %d scene files.\n", opt.numfiles); } for (fileindex=0; fileindex<opt.numfiles; fileindex++) { scene = rt_newscene(); /* process command line overrides */ presceneoptions(&opt, scene); filename = opt.filenames[fileindex]; if (opt.numfiles > 1) { printf("\nRendering scene file %d of %d, %s\n", fileindex+1, opt.numfiles, filename); } parsetimer=rt_timer_create(); rt_timer_start(parsetimer); len = strlen(filename); if (len > 4 && (!strcmp(filename+len-4, ".nff") || !strcmp(filename+len-4, ".NFF"))) { rc = ParseNFF(filename, scene); /* must be an NFF file */ } else if (len > 3 && (!strcmp(filename+len-3, ".ac") || !strcmp(filename+len-3, ".AC"))) { rc = ParseAC3D(filename, scene); /* Must be an AC3D file */ } #ifdef USELIBMGF else if (len > 4 && (!strcmp(filename+len-4, ".mgf") || !strcmp(filename+len-4, ".MGF"))) { rc = ParseMGF(filename, scene, 1); /* Must be an MGF file */ } #endif else { rc = readmodel(filename, scene); /* Assume its a Tachyon scene file */ } rt_timer_stop(parsetimer); if (rc == PARSENOERR && node == 0) printf("Scene Parsing Time: %10.4f seconds\n", rt_timer_time(parsetimer)); rt_timer_destroy(parsetimer); if (rc != PARSENOERR && node == 0) { switch(rc) { case PARSEBADFILE: printf("Parser failed due to nonexistent input file: %s\n", filename); break; case PARSEBADSUBFILE: printf("Parser failed due to nonexistent included file.\n"); break; case PARSEBADSYNTAX: printf("Parser failed due to an input file syntax error.\n"); break; case PARSEEOF: printf("Parser unexpectedly hit an end of file.\n"); break; case PARSEALLOCERR: printf("Parser ran out of memory.\n"); break; } if (fileindex+1 < opt.numfiles) printf("Aborting render, continuing with next scene file...\n"); else printf("Aborting render.\n"); rt_deletescene(scene); /* free the scene */ continue; /* process the next scene */ } /* process command line overrides */ postsceneoptions(&opt, scene); /* choose which rendering mode to use */ if (opt.usecamfile == 1) { return animate_scene(opt, scene, node); /* fly using prerecorded data */ } else if (strlen(opt.spaceball) > 0) { return fly_scene(opt, scene, node); /* fly with spaceball etc */ } else { if (opt.numfiles > 1 && opt.nosave != 1) { char multioutfilename[FILENAME_MAX]; sprintf(multioutfilename, opt.outfilename, fileindex); rt_outputfile(scene, multioutfilename); } rt_renderscene(scene); /* Render a single frame */ } rt_deletescene(scene); /* free the scene, get ready for next one */ } rt_finalize(); /* close down the rendering library and MPI */ freeoptions(&opt); /* free parsed command line option data */ return 0; }
/* * main loop for creating animations by playing recorded camera fly-throughs */ static int animate_scene(argoptions opt, SceneHandle scene, int node) { char outfilename[1000]; FILE * camfp; dispHandle * dh = NULL; if (node == 0) dh = tachyon_display_create(scene); /* if we have a camera file, then animate.. */ if ((camfp = fopen(opt.camfilename, "r")) != NULL) { floatvec cv, cu, cc; apivector cmv, cmu, cmc; int frameno = 0; float fps; rt_timerhandle fpstimer; rt_timerhandle animationtimer; rt_set_ui_message(NULL); rt_set_ui_progress(NULL); if (node == 0) printf("Running Camera File: %s\n", opt.camfilename); fpstimer=rt_timer_create(); animationtimer=rt_timer_create(); rt_timer_start(animationtimer); while (!feof(camfp)) { fscanf(camfp, "%f %f %f %f %f %f %f %f %f", &cv.x, &cv.y, &cv.z, &cu.x, &cu.y, &cu.z, &cc.x, &cc.y, &cc.z); cmv.x = cv.x; cmv.y = cv.y; cmv.z = cv.z; cmu.x = cu.x; cmu.y = cu.y; cmu.z = cu.z; cmc.x = cc.x; cmc.y = cc.y; cmc.z = cc.z; if (frameno != 0) { rt_timer_stop(fpstimer); fps = 1.0f / rt_timer_time(fpstimer); } else { fps = 0.0; } rt_timer_start(fpstimer); outfilename[0] = '\0'; if (opt.nosave == 1) { if (node == 0) { printf("\rRendering Frame: %9d %10.4f FPS ", frameno, fps); fflush(stdout); } } else { sprintf(outfilename, opt.outfilename, frameno); if (node == 0) { printf("\rRendering Frame to %s (%10.4f FPS) ", outfilename, fps); fflush(stdout); } } rt_outputfile(scene, outfilename); rt_camera_position(scene, cmc, cmv, cmu); rt_renderscene(scene); if (dh != NULL) tachyon_display_draw(dh); frameno++; } rt_timer_stop(animationtimer); fps = frameno / rt_timer_time(animationtimer); if (node == 0) { printf("\rCompleted animation of %d frames \n", frameno); printf("Animation Time: %10.4f seconds (Averaged %7.4f FPS)\n", rt_timer_time(animationtimer), fps); } rt_timer_destroy(fpstimer); fclose(camfp); } else { if (node == 0) { printf("Couldn't open camera file: %s\n", opt.camfilename); printf("Aborting render.\n"); } rt_deletescene(scene); /* free the scene */ rt_finalize(); /* close down the rendering library and MPI */ return -1; } if (node == 0) { printf("\nFinished Running Camera.\n"); if (dh !=NULL) tachyon_display_delete(dh); } rt_deletescene(scene); /* free the scene */ rt_finalize(); /* close down the rendering library and MPI */ return 0; }
/* * main loop for creating animations by flying using a spaceball * or other 3-D input mechanism. */ static int fly_scene(argoptions opt, SceneHandle scene, int node) { dispHandle * dh = NULL; int done = 0; int frameno = 0; float fps; rt_timerhandle fpstimer; rt_timerhandle animationtimer; char outfilename[1]; #if defined(USESPACEBALL) sbHandle * bh = NULL; #endif if (node == 0) dh = tachyon_display_create(scene); rt_set_ui_message(NULL); rt_set_ui_progress(NULL); if (node == 0) printf("Interactive Camera Flight\n"); outfilename[0] = '\0'; rt_outputfile(scene, outfilename); fpstimer=rt_timer_create(); animationtimer=rt_timer_create(); #if defined(USESPACEBALL) if (node == 0) { #if 1 bh = tachyon_init_spaceball(scene, opt.spaceball); #else if (rt_numnodes() < 2) { bh = tachyon_init_spaceball(scene, opt.spaceball); } else { printf("WARNING: Spaceball mode disabled when running with distributed memory"); } #endif } #endif rt_timer_start(animationtimer); while (!done) { if (frameno != 0) { rt_timer_stop(fpstimer); fps = 1.0f / rt_timer_time(fpstimer); } else { fps = 0.0; } rt_timer_start(fpstimer); if (node == 0) { printf("\rRendering Frame: %9d %10.4f FPS ", frameno, fps); fflush(stdout); } #if defined(USESPACEBALL) if (bh != NULL) done = tachyon_spaceball_update(bh, scene); #endif rt_renderscene(scene); if (dh != NULL) tachyon_display_draw(dh); frameno++; } rt_timer_stop(animationtimer); fps = frameno / rt_timer_time(animationtimer); if (node == 0) { printf("\rCompleted animation of %d frames \n", frameno); printf("Animation Time: %10.4f seconds (Averaged %7.4f FPS)\n", rt_timer_time(animationtimer), fps); } rt_timer_destroy(fpstimer); if (node == 0) { printf("\nFinished Running Camera.\n"); if (dh !=NULL) tachyon_display_delete(dh); } rt_deletescene(scene); /* free the scene */ rt_finalize(); /* close down the rendering library and MPI */ return 0; }
int main(int argc, char **argv) { SceneHandle scene; int i, j; apivector Ccenter, Cview, Cup; apivector ctr1, ctr2; apitexture tex1, tex2; void * vtx1, * vtx2; char fname[100]; rt_initialize(&argc, &argv); Ccenter.x=0.0; Ccenter.y=0.0; Ccenter.z=-3.0; Cview.x=0.0; Cview.y=0.0; Cview.z=1.0; Cup.x=0.0; Cup.y=1.0; Cup.z=0.0; ctr1.x=20.0; ctr1.y=20.0; ctr1.z=-40.0; ctr2.x=-20.0; ctr2.y=20.0; ctr2.z=-40.0; tex1.col.r=1.0; tex1.col.g=0.5; tex1.col.b=0.0; tex1.ambient=1.0; tex1.opacity=1.0; tex2=tex1; tex2.col.r=0.0; tex2.col.b=1.0; initspheres(); for (i=0; i<MAXFRAMES; i++) { scene = rt_newscene(); vtx1=rt_texture(scene, &tex1); vtx2=rt_texture(scene, &tex2); sprintf(fname,"outfile.%4.4d.tga",i); if (rt_mynode()==0) printf("Rendering: %s\n", fname); rt_outputfile(scene, fname); rt_resolution(scene, XRES, YRES); rt_verbose(scene, 0); rt_camera_setup(scene, 1.0, 1.0, 0, 5, Ccenter, Cview, Cup); movesp(); drawsp(scene); rt_light(scene, vtx1, ctr1, 1.0); rt_light(scene, vtx2, ctr2, 1.0); rt_renderscene(scene); rt_deletescene(scene); for (j=0; j<NUMSP; j++) free(sp[i].voidtex); } rt_finalize(); return 0; }